A light reflective shutter control apparatus

ABSTRACT

A light scattering surface is mounted facing the objective lens to direct light to a photoelectric detector during movement of a shutter curtain so that shutter control is provided during the exposure. An integrating circuit formed by a condenser and the photoelectric detector actuate a switching circuit to control movement of a second shutter curtain to terminate the exposure.

United States Patent Kobayashi et al. Aug. 29, 1972 [54] LIGHT REFLECTIVE SHUTTER [5 6] References Cited CONTROL APPARATUS UNITED STATES PATENTS [72] Invent: g:$3g: 3,442,190 5/1969 Erickson ..95/10 CT p 3,124,049 3/1964 Ball ..95/10 CT [73] Assignee: Minolta Camera Co., Ltd., Osaka- 3,336,850 8/1967 Takao Otani et a1. ...95/ 10 CT shi, Osaka-fu, Japan 3,468,233 9/1969 Schmidt ..95/42 [22] Filed NW 13 1970 3,353,462 I 11/1967 Nobuo Suzuki ..95/l0 CT [21] Appl. No.: 89,406 Primary Examiner-Joseph F. Peters AttorneyWatson, Cole, Grindle & Watson [30] Foreign Application Priority Data ABSTRACT Nov. 15, 1969 Japan ..44/91576 A light Scattering Surface is mounted facing the j [52] U 8 Cl 95/10 CT 95/42 95/53 EB tive lens to direct light to a photoelectric detector dur- 95/57 ing movement of a shutter curtain so that shutter con- 51 Int. Cl. ..G03b 7/08 G03b 9/18 is Pmvided during the exposureintegrating [58] Field of g "95/10 C 10 10 CT, 42 circuit formed by a condenser and the photoelectric 95/53 R, 53 E, 53 EA, 53 EB, 57

detector actuate a switching circuit to control movement of a second shutter curtain to terminate the exposure.

7 Claims, 10 Drawing Figures Ptnted Au 29, 1972 3,687,026

4 Sheets-Sheet 1 1N VENTOR ATTORNEY Patented Aug. 29, 1972 4 Sheets-Sheet 2 ATTORNEY Pateptd Au 29; 1972 4 Sheets-Sheet 3 INVENTOR Mf/WM ATTORNEY Patented 29, 1972 3,687,026

4 Sheets-Sheet 4 INVENTOR ATTORNEY A LIGHT REFLEGTIVESHUTTER CONTROL APPARATUS I The present invention relates to a light reflective shutter control for a camera which operates even during exposure.

BACKGROUND OF THE INVENTION light is not measured and the light value just prior to exposure is used for exposure control. In a single lens reflex camera a light receiving element is disposed on a movable mirror or a light receiving element is fixed in a finder optical system reflected by the movable mirror, therefore, in both cases the exposure control during an exposure is impossible because the movable mirror turns just before the exposure and accordingly the exposure must be controlled on the basis of the stored light value.

There, a memory device for memorizing the light value, for. example, a circuit provided with a memory condenser is required, and further a change over device for changing over the memory device from normal exposure to the exposure control is required. The exposure control device of the camera becomes complicated and in addition between the photometric time and the exposure time in field photography, when there is a change in the'brightness of an object, for example, when the intensity of illumination undergoes a change, when there is a flashing of light in the field, or when taking a flash photograph, the exposure is in error. Besides, in a type camera wherein a light receiving element is transferred from the inside to the outside Of the camera depending on the photometric time and the exposure time the camera shakes due tothe inertia caused by the transference.

OBJECT OF THE INVENTION One object of the present invention is to provide a camera having an exposure control device with light passing through the objective lens (TTL), which eliminates the prior. drawbacks mentioned above, and can control an exposure during an exposure.

Another object of the present invention is to provide a camera having TTL exposure control, which equalizes the reflection factor of the light passing through,

2 SUMMARY OF THE PRESENT INVENTION In order to attain the abovementioned objects in a camera for efiecting TTL photometry, the present invention provides a camera which measures the reflection power of the photographic film and is so constructed that a light receiving element is mounted on the outside of the picture image light ray passing through the objective lens and facing the sensitive film surface, thereby, equalization is'obtained between the reflection factor with the opening screen for the focal plane shutter facing light receiving element and the I reflection factor of the exposed sensitivfilm surface.

The operation of the opening screen and the measuring of the reflected ray from the opening screen and 'the reflected ray fromthe exposed sensitive film surface eliminates changes in the light projected to the light receiving element caused by movement of thebpening screen. Thebrightness of an Object is correctly determined and the exposure automatically controlled.

BRIEF DESCRIPTION OF THE DRAWINGS with'the present invention. Y

FIG. 2 shows the electric control circuit in the embodiment.

FIG. 3 is a diagram showing the variation in the light received of a light receiving element'accompanied by. the shutter release and the change of resistance thereof in the embodiment.

FIG. 4 is a side section view of another embodiment in accordance with the present invention.

FIG. 5 is a front view of the inner wall of the camera in the embodiment of FIG. 4.

FIG. 6 is a diagram showing the variation in the light received by the light receiving element accompanied by the shutter release in the second embodiment.

FIG. 7 is a partial cross section view of an example of the shutter release delay mechanism of the first embodiment shown in FIG. 1 in accordance with the present invention.

FIG. 8 is a partially cross section view of the second example of a delay mechanism.

FIG. 9 shows the switching circuit provided with the control circuit for the delay mechanism.

FIG. 10 is a side section view showing an example of the shutter screen in accordance with the present invention.

DESCRIPTION OF THE EMBODIMENT FIG. 1 shows an embodiment in which the present invention is put to use for a single reflex camera, wherein diaphragm blade 2 is held by preset diaphragm device 3 in the lens barrel provided on the front of the camera body, and disposed on the pupil position of lens 1 not shown in FIG. 1 but shown in FIG. 2. Numeral 4 is a movable mirror held on turning plate 4, which is al-' tegral with opening screen winding drum 15, is disenpin hole 26 and has a clockwise turning tendency from spring 27. Preset diaphragm restraining lever-28 for engaging with release lever 25 to turn it counterclockwise against the spring force is supported rotatably on the camera body at pin hole 29 and has a clockwise turning 5 tendency from spring 30. And, when disengaged from release lever 25 restraining lever 28 turns to stop down diaphragm 2 from a completely open position to the set up diaphragm value effected by restraining member 34 of preset diaphragm device 3.

When preset diaphragm restraining lever 28 turns it runs into mirror restraining lever 31. Mirror restraining lever 31 is supported rotatably on the camera body at pin hole 32 and has a clockwise turning tendency from spring 33, and retains engagement withtuming plate 4 at a sloping position at an angle of 45. However, when struck by preset diaphragm restraining lever 28 mirror restraining lever 31 turns counterclockwise to release movable mirror 4. Movable mirror 4 turns clockwise to a horizontal position through a spring not shown in the drawing.

Therefore, the picture image light ray on lens 1 is projected onto opening screen 9 for the focal plane shutter which is still closing.

Light receiving element 14 is disposed on the rear of movable mirror 4, facing the exposure window of exposure frame 12 and being out of the optical path of the picture image light ray on lens 1. Therefore, when movable mirror 4 is turned to the horizontal position as described above the reflected ray effected by opening screen 9 located to screen the exposure opening comes into light receiving element 14 which takes a resistance value corresponding to the intensity of the reflected ray.

At the final stroke of the turning of movable mirror 4 to the horizontal position, turning plate 4 comes into contact with opening screen restraining lever 19 to turn it counterclockwise so that opening screen pawl 17, in-

gaged fromopening screen restraining lever 19 and opening screen 9 starts to move by being-driven by take-up drum 21. Simultaneously opening screen pawl 17 opens timing switch 41.

As opening screen 9 starts to move sensitive film 11 is exposed to the picture image light ray effected by lens 1 and the reflected ray from the sensitive face of sensitive film 11 is reflected onto light receiving element 14.

The measured results of the reflection factor of sensitive films on the market are shown in the following table:

ASA Designation 01 film ASA Designation of film 6 .{Agepan 27 Adox KB21 31 Agepe 29 Agfapan 26 25 gla IsopunFF 24 Minori-pan 31 Kodachrome II 26 100... Sakura-Color N100 27 Panatomic X 23 Sakura-Color R100" 28 32 Neopan F 28 Fuji-Color N100 24 Gevapan Dia 23 Fuji-Color R100 26 Coni-Pan reversaluu 30 Ilford FP4. 30 40 lsopan I 26 l25 Plus X 29 Adox KB17 2B Kodak EHB. 30 Pan-film 17... 25 160..... Kodak EH... 27 Agfacolor C'TlS 28 200... .{Neopan SSS. 30 50 Agiaehrome 50S 27 Koni-Pan SSS 31 Agfachrome SOL"... 29 250 Gevapan 33 r 29 (14 Extachrome X 29 ii 28 Kodachrome X 26 Agepan 400... 27 Agfacolor CNS 30 400. lsopan Ultra. 28 Kodacolor X 29 Orwo N P27. 30

Agfacolor CK36 2B Iiford IIP4 Neopau SS 29 800.. Kodak Recording... 31 100. Koni-pan SS M 31 1,000... Agepan 1000 2G lsopnn ISS 26 1,250. lsopan Record 29 As seen in the above measured results, the reflection powers are distributedin a narrow range from 23to 31 percent and the spectral reflection powers are. nearly uniform within the visible wave lengths, even with respect to very sensitive material. Therefore, by making use of light receiving element 14 having a spectral sensitivity approximately equal to the visible sensitivity it is possible to detect the light of an object through the reflected ray from the surface of the sensitive material.

in the prior art are made of a black rubbered cloth, a

- black coloring cloth, or such metal screens as titaniumstainless, or an aluminum alloy coated with a' black thin film of silicon varnish, teflon or another synthetic resin, natural rubber, or synthetic rubber. The reflection factors thereof are from 3 to 4 percent, and accordingly it is almost impossible to detect the brightness of an object through the reflected ray thereof and control the exposure. 5

Therefore, in the present invention the reflection power at least on the side facing the side of lens 1 for opening screen 9 is finished to have a reflecting power from23 to 31 percent. Therefore, the quantity of light of the picture image light ray reflected to come into light receiving element 14 remains almost unchanged even before opening screen 9 starts to move, also while moving, and further even after the movement is finished. And thus, light receiving element 14 is able to detect the light of an object and control the exposure in accordance with the detected value until closing screen 10 starts to move so as to finish the exposure.

Next, with reference to FIG. 2 showing the electric control circuit in the first embodiment, light receiving element 14, into which the reflected light ray through lens 1 and diaphragm 2 by opening screen 9 or sensitive series through change over switch 36 to one of condensers 37,, 37 37 connected in parallel with each other. Timing switch 41 is connected in parallel with change over switch 36 and condensers 37,, 37 37 and the node between light receiving element 14 and change over switch 36 is connected to thebase of transistor 42 to form timer circuit A. And, variable resistance 43 is an emitter resistance of transistor 42 the resistance value of which is changed through film sensitivity set up dial 411 and the interlocking member shown in FIG. 2 changes condensers 37 37 37 In the switching circuit shown by broken line B in FIG. 2, transistor 44 which receives the output of timer circuit A'as an input forms a Schmidt trigger circuit together with transistor 45. To the collector of transistor 45 the base of amplifier transistor 47 is connected, and to the collector of amplifier transistor 47 electromagnet 48 for releasing the closing screen and condenser 14 are connected in parallel.

That is, just as the opening screen starts to move and timing switch 41 is opened as described above, with the current running through light receiving element 14 delay condenser 37,, (provided change over switch 36 is connected to condenser 37 in accordance with the film sensitivity set up) starts to charge, and when the charging voltage gets to a certain set up voltage transistor 42 is actuated to operate switching circuit B and electromagnet 48 is excited.

Just as electromagnet 48 is excited closing screen restraining lever 20 is turned clockwise in FIG. 1 to tion factor of closing screen 10.

In the above embodiment, when the reflection power of opening screen 9 is 26.7 percent, the measuring error in the case where the sensitive material has the minimum reflection power (23 percent) and the sensitive material has the maximum reflection'power (31 percent) is only i 0.2 E, or so as compared with the case where a sensitive material having the same reflection power of 36.7 percent as opening screen 9 is put to use. Therefore, it is understood that all sensitive materials may be used.

FIG. 3 shows the change of the quantity of light incident to light receiving element '14 and the change of the output thereof in the first embodiment, wherein t denotes the time for pushing down the shutter release button, t the time for finishing the preset diaphragming and r, the time for finishing the turning of the movable mirror. That is, before pushing down the shutter release button the picture image light ray is reflected by the movable mirror and the quantity P of light incident to light receiving element 14 is very little. After the shutter release button is pushed down preset diaphragm device 3 operates and diaphragm 2 is stopped down from the complete opening state to the preset diaphragm value, and the quantity of light incident to light receiving element 14 is further reduced, however, then movable mirror 4 turns and the quantity of light is gradually increased, and when movable mirror 4 is completely up the quantity of light is that indicated at P However, the light receiving element 14 has a special characteristic so that the output thereof attains the output corresponding to the change of quantity of incident light and follows the curve shown by r in FIG. 3, and reaches the output corresponding to the quantity P of incident light at Therefore, when the photometry is started between t and t an error results. When a silicon charging element having a small time constant is used as the light receiving element 14 an error between and t;, can be disregarded, however, when a conventional photoconductive element is used it can not disregarded.

In the second embodiment shown in FIG. 4 the error due to the time lag of the light receiving element is designed to be reduced as far as possible. i

That is, in the second embodiment, photoconductive elements 14 to 14 are disposed facing the exposure window to the internal face of front wall 50 and mounted on the front of movable mirror 4. In this the change of the light received is as shown in FIG. 6,

and the whole change of light is little as compared with that of the first embodiment shown in FIG.-l and it is possible to reduce the response delay of the photoconductive element.

Further, the reason why a plurality of photoconductive elements are put to use as shown in the second embodiment is to be able to look for the average intensity of illumination'on the whole picture, that is, when only one photoconductive element is put to use it is afie'cted comparatively strongly by the place in the focal plane near the photoconductive element so' that an error results in case of an object wherein the distribution of the illumination on the focal plane is not uniform, however, by making use of a plurality of photoconductive elements it is possible to obtain the average intensity of illumination on the whole picture. Therefore, for this- A FIG. 7 shows another means for correcting the error f due to the time lag of response using the photoconducmanner, before pushing down the shutter release butscreen restraining lever 19 in a direct action asshown in FIG. 1, a member-for effecting the delay action is provided therein- Thatis, opening screen restraining lever 19, is mounted loosely on pin 52 provided on movable disk 51 and having a clockwise turning tendency by spring 57 to engage with opening screen pawl 7. Movable disk 51 has a turning tendency in the opposite direction to opening screen lever 19 (counterclockwise) by spring 53 and on the face thereof restraining pin 54 and working pin 55 are provided. Intermediate lever 56 engageable with turning plate 4' has a clockwise turning tendency and engages with restraining pin 54 provided on movable disk 51 to restrain the rotation of movable disk 51 against spring 53. Working pin 55 for coming into contact with opening screen restrain lever 19 to turn it counterclockwise against spring 57 has a certain gap from opening screen restrain lever 19, when restraining pin 54 engages with intermediate lever 56. Therefore, after the turning of turning'plate 4' is finished and light receiving element 14 has received the incident ray for a certain time, opening screen restraining lever 19, disengages from opening screen pawl 17 and the opening screen is .of timer circuit A is fed as shown in FIG. 9. Transistor 44 is actuated simultaneously with the closing of the power source switch and turned to the non-conductive state simultaneously with transistor 42 in timer circuit A (see FIG. 1) is reversed, so that when power switch 39 is closed by turning of turning plate 4' transistor 44 is actuated first to charge condenser 59, and when condenser 59 is charged after a certain time electromagnet 58 is excited to release the opening screen, so that by been variously proposed and the surface of opening screen 9 need not be made a light diffusion face however, the illuminance for forming an image of an object is not uniform and the sensitivity characteristic of the light receiving angle of light receiving element 14 is not even, so that it is preferable that the shutter screen is made a light diffusion reflection surface having the same standard as the sensitive material. FIG. 10 shows an example of such a shutter screen, wherein screen portion 61 composed of a black screen of a sensitive material is coated with a resin layer of an opalescent color having a reflection factor between 23 and 31 percent and both ends thereof are fastened by black fastener 60 to prevent them from separating from each other.

Provided that sensitive material surface 11 and opening screen surface 9 are a complete diffusion surface and the illuminance of the picture image light ray is uniform, and using the first embodiment shown in FIG.

1 in the light receiving illuminance E, of light receiving element 1 is obtained from the following formula:

wherein,

V, is the reflection power of the sensitive material surface and the opening screen surface, and assuming it to be 0.3. S is the area of the exposure opening, and assuming it 24x36 mm*. is the angle formed between the line connecting the center of the picture image light ray for forming an image to the light receiving element, and a perpendicular line to the center, and assuming it to be 30 0 is the angle formed between the axis of the angle with which the light receiving element receives the light and the line connecting the center of the picture image light ray for forming an image to the light receiving element, and assuming it to be 0. 1 is the distance between the center of the exposure opening and the light receiving element, and assuming it to be 24'""', and thus E, is the illuminance of the picture image light ray, so that when the respective value is put in appropriate position in the formula, the following formula is obtained:

While, the result obtained by measuring in an embodiment in which reflection surface 62 of opening screen 9 is made a light diffusion surface the same standard as the sensitive surface of sensitive material 11 as shown in FIG. is as follows:

That is, both E values are nearly the same and this fact shows that the sensitive material surface and the reflection surface of the opening screen are not necessary to be a complete diffusion surface.

Where a film such as a minicopy with an emulsion layer is very thin and the reflection power is as low as 16 percent is used as a sensitive material the tra'nsmission power is percent or so, so that by making use of a film press-fit plate it is possible to compensate the reflected light ray from the film surface.

As described above, the present invention can be applied to almost all of the films on the market except in- 'frared films especially those having a low reflection power. v

And, in the present invention the arrangement of the sensitive materials for the opening and closing screens can be arranged at intervals between the opening screen and the light receiving element, and between the sensitive material and the light receiving element by disposing opening screen 9 on the side of sensitive material ll-and arranging closing screen 10 on the front of opening screen 9 as shown in FIG. 1, and accordingly the exposure control error can be reduced.

We claim:

1. A shutter control apparatus for a photographic camera, comprising:

an objective lens;

means having a light sensitivesurface; v

a first shutter curtain for initiating exposure of said light sensitive surface and having a light scattering surface facing said objective lens, said light scattering surface having a reflecting power j of between 23 and 31 percent;

a second shutter curtain for terminating said exposure;

an electric timing means for controlling said second shutter curtain and including,

- a photoelectric member for receiving light passing through said objective lens and reflected from said light scattering surface and/or said light sensitive surface,

a condenser connected to said photoelectric member to form an integrating circuit,

a switching circuit responsive to said integrating circuit; and

an electromagnet driven by said switching circuit to actuate said second shutter curtain after a delay period determined by said integrating circuit.

2. A shutter control apparatus as in claim 1, wherein said reflecting power is 26.7 percent.

3. A shutter control apparatus as in claim 1, wherein said first shutter curtain is mounted closer to said light sensitive surface than said second shutter curtainQ 4. A shutter control apparatus as in claim 1, further comprising:

a view finder;

a mirror movable between a viewing position for directing the light passing through theobjective lens to said view finder and a retracted position for allowing the light to impinge on said light sensitive surface;

a retaining member for retaining said first shutter curtain in a cocked position;

means for releasing said first shutter curtain with said mirror in said retracted position; and delay means for delaying the operation of said means for releasing.

5. A shutter control apparatus as in claim 4, further mirror and said objective lens facing said-light sensitive material.

7. A shutter control apparatus'as in claim 6, further comprising a plurality of photoelectric elements facing said light sensitive surface.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTIONv 3,687,026 Dated August 29, 197

- Patent No.

lnvento'fls) Tatsuo Kobayash i; Hiroshi Ueda 7 It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

['73] Assignee: Minolta "Camera Kabushiki Kaisha,

Osaka-shi, Osaka-fu, Japan Signed and sealed this 1st d y of January 197M (SEAL) Attest:

:EDWAR'D M,FLETOHER,JR, RENE D. TEGTMEYERQ Attesting Officer Acting Commissioner of Patents RM PQ-1Q5Q (10-69) I ugc o wwoc B0376-F'69 U S. GOVERNMENT PRINIING O F FICE I963 0-368-334,

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,687,026 Dated August 29, 1972 lnventofls) Tatsuo Kobayashi; Hiroshi Ueda It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

['73] Assignee: Minolta Camera Kabushiki Kaisha,

Osaka-shi, Osaka-fu, Japan Signed and sealed this 1st day of January 197A.

(SEAL) Attest:

EDWARD M.FLETCHER,JR. RENE D. TEGTMEYER Attestlng Officer Acting Commissioner of Patents FORM PC4959 (10-69) U4S COMM-DC 60376-P69 U 54 GOVERNMENT PRINTING OF FICE: I389 0-36-334, 

1. A shutter control apparatus for a photographic camera, comprising: an objective lens; means having a light sensitive surface; a first shutter curtain for initiating exposure of said light sensitive surface and having a light scattering surface facing said objective lens, said light scattering surface having a reflecting power of between 23 and 31 percent; a second shutter curtain for terminating said exposure; an electric timing means for controlling said second shutter curtain and including, a photoelectric member for receiving light passing through said objective lens and reflected from said light scattering surface and/or said light sensitive surface, a condenser connected to said photoelectric member to form an integrating circuit, a switching circuit responsive to said integrating circuit; and an electromagnet driven by said switching circuit to actuate said second shutter curtain after a delay period determined by said integrating circuit.
 2. A shutter control apparatus as in claim 1, wherein said reflecting power is 26.7 percent.
 3. A shutter control apparatus as in claim 1, wherein said first shutter curtain is mounted closer to said light sensitive surface than said second shutter curtain.
 4. A shutter control apparatus as in claim 1, further comprising: a view finder; a mirror movable between a viewing position for directing the light passing through the objective lens to said view finder and a retracted position for allowing the light to impinge on said light sensitive surface; a retaining member for retaining said first shutter curtain in a cocked position; means for releasing said first shutter curtain with said mirror in said retracted position; and delay means for delaying the operation of said means for releasing.
 5. A shutter control apparatus as in claim 4, further comprising: a power switch for said electric timing means having a normally open position and a closed position with said mirror in said retracted position; and said means for releasing includes an electromagnet connected to said switching circuit and actuated by the closing of said power switch to release said retaining member.
 6. A shutter control apparatus as in claim 4, wherein the photosensitive element is mounted between said mirror and said objective lens facing said light sensitive material.
 7. A shutter control apparatus as in claim 6, further comprising a plurality of photoelectric elements facing said light sensitive surface. 